EP1572330A1 - Permselektive, asymmetrische hohlfasermembran zur trennung von toxischen mediatoren vom blut - Google Patents
Permselektive, asymmetrische hohlfasermembran zur trennung von toxischen mediatoren vom blutInfo
- Publication number
- EP1572330A1 EP1572330A1 EP03781225A EP03781225A EP1572330A1 EP 1572330 A1 EP1572330 A1 EP 1572330A1 EP 03781225 A EP03781225 A EP 03781225A EP 03781225 A EP03781225 A EP 03781225A EP 1572330 A1 EP1572330 A1 EP 1572330A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- membrane
- weight
- membrane according
- polymer
- blood
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D67/00—Processes specially adapted for manufacturing semi-permeable membranes for separation processes or apparatus
- B01D67/0002—Organic membrane manufacture
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M1/00—Suction or pumping devices for medical purposes; Devices for carrying-off, for treatment of, or for carrying-over, body-liquids; Drainage systems
- A61M1/34—Filtering material out of the blood by passing it through a membrane, i.e. hemofiltration or diafiltration
- A61M1/3403—Regulation parameters
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D67/00—Processes specially adapted for manufacturing semi-permeable membranes for separation processes or apparatus
- B01D67/0002—Organic membrane manufacture
- B01D67/0006—Organic membrane manufacture by chemical reactions
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D69/00—Semi-permeable membranes for separation processes or apparatus characterised by their form, structure or properties; Manufacturing processes specially adapted therefor
- B01D69/08—Hollow fibre membranes
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D5/00—Formation of filaments, threads, or the like
- D01D5/24—Formation of filaments, threads, or the like with a hollow structure; Spinnerette packs therefor
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M1/00—Suction or pumping devices for medical purposes; Devices for carrying-off, for treatment of, or for carrying-over, body-liquids; Drainage systems
- A61M1/14—Dialysis systems; Artificial kidneys; Blood oxygenators ; Reciprocating systems for treatment of body fluids, e.g. single needle systems for hemofiltration or pheresis
- A61M1/16—Dialysis systems; Artificial kidneys; Blood oxygenators ; Reciprocating systems for treatment of body fluids, e.g. single needle systems for hemofiltration or pheresis with membranes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M1/00—Suction or pumping devices for medical purposes; Devices for carrying-off, for treatment of, or for carrying-over, body-liquids; Drainage systems
- A61M1/34—Filtering material out of the blood by passing it through a membrane, i.e. hemofiltration or diafiltration
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2325/00—Details relating to properties of membranes
- B01D2325/02—Details relating to pores or porosity of the membranes
- B01D2325/0283—Pore size
- B01D2325/02833—Pore size more than 10 and up to 100 nm
Definitions
- the present invention relates to a permselective asymmetric hollow fibre membrane for the separation of toxic mediators from blood, comprised of at least one hydrophobic polymer and at least one hydrophilic polymer. Further, the present invention relates to a process for the preparation of such a membrane, and the use of said membrane in hemodialysis, hemodiafiltration and hemofiltration for treatment of toxic mediator, related diseases .
- SIRS systemic inflammatory response syndrome
- MODS multi- organ system dysfunction syndrome
- MOSF multi- organ system failure
- TM toxic mediators
- TM include various cytokines (tumor necrosis factor, TNF; the interleukins ; inter- feron) , various prostaglandins (PG I. sub.2, E.sub.2, Leukotrienes) , various clotting factors (platelet activating factor, PAF) , various peptidases, reactive oxygen metabolites, and various poorly understood peptides which cause organ dysfunction (myocardial depressant factor, MDF) .
- PAF platelet activating factor
- MDF myocardial depressant factor
- Hemofiltration was developed as a technique to control overhydration and acute renal failure in un- stable patients and may use a hemofilter consisting of a cellulose derivatives or synthetic membrane (e.g., polysulfone, polyamide, etc.) fabricated as either a parallel plate or hollow fibre filtering surface.
- a hemofilter consisting of a cellulose derivatives or synthetic membrane (e.g., polysulfone, polyamide, etc.) fabricated as either a parallel plate or hollow fibre filtering surface.
- Current HF membranes when used to treat acute renal failure associated with MOSF have been associated with incidental improvements in organ function other than the kidneys. However, these membranes remain deficient in the treatment of MOSF because their specific design characteristics prevent them from removing TM in the upper molecular weight range of recognized TM.
- the pores of most conventional hemofiltration membranes allow passage of molecules up to 30,000 Daltons in water with very few membranes allowing passage of molecules up to 50,000 Daltons.
- the membranes used to treat renal failure were generally designed to achieve the following specific goals: (i) to permit high conductance of the aqueous phase of blood plasma water needed to permit the formation of ultrafiltrate at a fairly low transmembrane pressure (typically 20-40 mm Hg) , which re- quires a relatively large pore size that incidentally passes molecules of up to 30,000 to 50,000 Daltons; and (ii) to avoid passage of albumin (e.g., 68,000 Daltons).
- US-A-5 571 418 discloses a novel method of continuous arteriovenous hemofiltration (CAVH) using a polysulfone or similar material, hollow fibre hemofilter with a molecular weight exclusion limit of up to 100,000 to 150,000 Daltons as therapeutic regimen for sepsis, multiple organ failure (MOF) , systemic inflammatory re- sponse syndrome (SIRS) or other mediator-related diseases .
- CAVH continuous arteriovenous hemofiltration
- MOF multiple organ failure
- SIRS systemic inflammatory re- sponse syndrome
- US-A-5 , 571, 418 generally contemplates the use of large pore hemofiltration membranes with pore sizes to provide molecular weight exclusion limits of 100,000 to 150,000 Daltons in water. With these higher molecular weight cut-offs, these membranes are designed to remove a wider range of different IM's.
- EP-A-0 305 787 discloses permselective assymmetric membranes suitable for hemodialysis and a process for the manufacturing thereof.
- Said membrane has a special three- layer structure having high diffusive permeability, comprising a first inner layer in the form of a dense rather thin skin, having a thickness below 1 ⁇ m and a maximum pore size of about 8 nm, responsible for the sieving properties, a second layer in the form of a sponge structure, having a thickness of about 1 to 15 ⁇ m and serving as a support for said first layer and a third layer in the form of a finger structure, giving the membrane a mechanical stability and having a thickness of about 20 to 60 ⁇ m.
- the membrane is manufactured by presolving the hydrophobic first polymer in a solvent, presolving the hydrophilic second polymer in a solvent of preferably the same kind, mixing the two solutions, extruding the mixture through the outer ring slit of a nozzle with two concentric openings, a precipitating liquid including a part of the hydrophilic second polymer flowing through the inner openings, to obtain a coagulated membrane, which is subsequently washed and preferably dried.
- the object of the present invention is to provide an improved permselective asymmetric hollow fibre membrane for the separation of toxic mediators from blood, comprised of at least one hydrophobic polymer and at least one hydrophilic polymer.
- a further object of the invention is to provide a process for the preparation of the membrane of the present invention.
- This object is achieved by a process comprising the steps of a) dissolving the at least one hydrophobic polymer and the at least one hydrophilic polymer in a solvent to form a polymer solution, b) extruding the formed polymer solution through an outer ring slit of a nozzle with two concentric openings, c) extruding a centre fluid through the inner opening of the nozzle, and d) subsequently washing and preferably drying the membrane, wherein the polymer solution comprises 10-20 weight% hydrophobic polymer and 2-11 weight% hydrophilic polymer.
- Yet another object of the invention is to provide a use of the membrane for treatment of toxic mediator related diseases, especially sepsis, in hemodialysis mode, hemodiafiltration mode and hemofiltration mode.
- the present invention comprises HD, HDF and HF methods using a novel membrane fabricated with a pore size capable of allowing passage of molecules of about 45,000 Daltons in presence of whole blood and having an exclusion limit in water of about 200,000 Daltons.
- the membrane of the present invention is useful in treating human patients with SIRS-MOSF and provides for removal by filtration and/or diffusion of the entire known range of TM.
- the membrane of the invention a high selectivity is achieved, i. e. a high removal of toxic mediators having a molecular weight of up to 45,000 Dalton is achieved at the same time as a low amount of albumin, having a molecular weight of 68,000 Dalton is lost. Moreover, the risk for proteins which penetrate into the membrane structure to be absorbed in the pore structure of the membrane and thus change the permeability of the membrane, is highly reduced.
- Fig. la and lb show scanning electron microscopic pictures of cross sections of the membrane structure according to a preferred embodiment of the invention
- Fig 2 shows a scanning electron microscopic picture of the inner surface of the membrane
- Fig 3a and 3b shows the sieving coefficients for two different membranes, a prior art standard "high flux membrane” and the membrane according to the invention
- Fig 4 shows the protein loss into the filtrate for a standard high flux membrane and for the membrane of the invention
- Fig 5 shows IL-6 values in plasma and filtrate 30 min after initiation of filtration by the membrane of the invention
- Fig 6 shows the removal of circulating mediators in Renal Intensive Care (RIC) /sepsis for a standard high flux membrane and the membrane of the invention.
- RIC Renal Intensive Care
- the present invention provides a permselective asym- metric hollow fibre membrane for use in a method of treating a pathophysiological state by filtering and/or dialysing blood, comprising the steps of: withdrawing blood from a mammal; filtering and/or dialysing the blood; and returning said blood to the mammal.
- the methods of the present invention may use either continuous arteriovenous or continuous venovenous hemofiltration, hemodiafiltration or hemodialysis.
- hemodialysis refers to a process to correct the chemical composition of blood by removing accumulated metabolic products and adding buffer in a process of diffusion through a natural or synthetic semi-permeable membrane.
- HDF hemodiafiltration
- hemodiafiltration refers to a process to remove accumulated metabolic products from blood by a combination of diffusive and convective transport through a semi-permeable membrane of high-flux type; fluid is removed by ultrafiltration and the volume of filtered fluid exceeding the desired weight loss is replaced by sterile, pyrogen-free infusion solution.
- hemofiltration refers to a process of filtering blood by a membrane with separation of plasma water and solutes with the ultrafiltrate, and retaines all proteins larger than effective pore size and blood cells.
- the accumulated metabolic products are removed from the blood by the process of convective transport as a consequence of ultrafiltration through a semi-permeable membrane of high-flux type; the volume of filtered fluid exceeding the desired weight loss is replaced by sterile pyrogen-free infusion solution.
- ultrafiltration refers to the filtered plasma water and solute and molecules (including target peptides and proteins) smaller than effective pore size.
- hollow fibre membrane used throughout the application text is intended to cover everything from one single hollow fibre up to several single hollow fibres and one or more bundles of such hollow fibres, each fibre having a filtrate side and a blood side.
- flat sheet membrane used throughout the application text means a micropore containing flat membrane having a filtrate side and a blood side.
- TM refers to a heterogeneous group of chemicals synthesized and released by human tissue.
- TM include the inflammatory mediators of SIRS (cytokines, prostaglandins, oxygen metabolites), various clotting factors, various pepti- dases and various toxic peptides.
- SIRS cytokines, prostaglandins, oxygen metabolites
- clotting factors various clotting factors
- pepti- dases various toxic peptides.
- the molecular weight range of known TM is 1,000-60,000.
- the term "hemofilter” refers to the filter used in hemofiltration. It is configured as either a series of parallel plates or as a bundle of hollow fibres.
- the blood path is from a blood inlet port, through the fibres or between the plates, then to a blood outlet port. Filtration of blood occurs at the membrane with ultrafiltrate forming on the side of the membrane opposite the blood. This ultrafiltrate accumulates inside the body of the filter contained and embodied by the filter jacket. This jacket has an ultrafiltrate drainage port .
- the term “hemodialyser” refers to the semi-permeable membrane used in hemodialysis. It is configured as either a series of parallel plates or as a bundle of hollow fibres.
- the blood path is from a blood inlet port, through the fibres or between the plates, then to a blood outlet port.
- a dialysate path is from a dialysate inlet port, outside the fibres or between the plates, the to a spent dialysate drain port.
- the dialysing of blood occurs at the membrane by diffusion through the membrane from the blood side to the dialysate side, and adding of buffer from the dialysate side to the blood side.
- the dialysate comprising necessary buffer and electrolytes.
- the term "extracorporeal circuit” refers to the system of plastic tubes attached to the hemofilter which is used clinically.
- the arterial line is the plastic tube which carries blood from artery or vein to the blood inlet port of the hemofilter.
- the venous line carries blood from the blood outlet port returning to a vein.
- the ultrafiltrate line carries ultrafiltrate from the ultrafiltrate drainage port on the filter jacket to a reservoir from which ultrafiltrate is discarded.
- the term “effective sieving coefficient (S) refers to the physical property of a membrane to exclude or pass molecules of a specific molecular weight :
- the appropriate membrane allows for passage of molecules in the range of toxic mediators of up to 45,000 Daltons in the presence of whole blood/blood proteins, which means the molecular weight of a substance having a sieving coefficient (S) of 0.1 -1.0 in presence of whole blood.
- S sieving coefficient
- cut off refers to "nominal cut off” which means the molecular weight of a substance having a sieving coefficient (S) of 0.1 in water.
- the membrane in a preferred embodiment of the present invention has a unique structure, including a specific 3-layer structure with an innermost layer, i. e. a blood contacting layer, having a glomerular structure of the skin with pores having a size in the nanoscale range.
- a specific 3-layer structure with an innermost layer, i. e. a blood contacting layer, having a glomerular structure of the skin with pores having a size in the nanoscale range.
- Fig la and lb cross sections of the membrane structure according to the invention are shown, and in Fig 2 a scanning electron microscopic picture of the inner surface of the membrane.
- Pore channels between glomerular polymer clusters consisting of a mixture of hydrophilic polymers and hydrophobic polymers are shown.
- At least one hydrophilic polymer and at least one hydrophobic polymer are present in the membrane as domains on the surface.
- the hydrophobic polymer is present in an amount of 10-20 weight%, based on the weight of the membrane.
- the hydrophobic polymer according to the invention may be chosen from the group consisting of polyarylether- sulfone (PAES) , polypropylene (PP) , polysulfone (PSU) , polymethylmethacrylate (PMMA) , polycarbonate (PC) , poly- acrylonitrile (PAN) , polyamide (PA) , or polytetrafluor- ethylene (PTFE) .
- PAES polyarylether- sulfone
- PP polypropylene
- PSU polysulfone
- PMMA polymethylmethacrylate
- PC polycarbonate
- PAN poly- acrylonitrile
- PA polyamide
- PTFE polytetrafluor- ethylene
- the hydrophilic polymer of the invention may be chosen from the group consisting of polyvinylpyrrolidone (PVP) , polyethyleneglycol (PEG) , polyvinylalcohol (PVA) , and copolymer of polypropyleneoxide and polyethyleneoxide (PPO-PEO) .
- PVP polyvinylpyrrolidone
- PEG polyethyleneglycol
- PVA polyvinylalcohol
- PPO-PEO copolymer of polypropyleneoxide and polyethyleneoxide
- the membrane of the invention has in a preferred embodiment at least a 3 -layer asymmetric structure.
- a separation layer is present, having a thickness of ⁇ 0.5 ⁇ m and containing pore channels, having a pore size of 15-60 nm, preferably 20-40 nm.
- the next layer in the hollow fibre membrane is the second layer, having the form of a sponge structure and in a preferred embodiment a thickness of about 1-15 ⁇ m and serving as a support for said first layer.
- the third layer having the form of a finger structure. It provides like a framework a mechanical stability on the one hand; on the other hand it has through the high void volume a very low resistance of transport of molecules through the membrane.
- the third layer gives the membrane a mechanical stability and has, in a preferred embodiment of the present invention, a thickness of 20 to 60 ⁇ m.
- Fig 3 the sieving coefficients for two different membranes, a prior art standard "high flux membrane” and the high cut off membrane according to the invention are shown.
- Fig 4 the protein loss is illustrated.
- the sieving coefficient of the membrane according to the present invention is superior to the high flux membrane and at the same time the loss of albumin is significantly lower in the membrane of the invention.
- the sieving coefficient for albumin in. presence of whole blood is below 0,05.
- Fig 5 and Fig 6 shows the removal of circulating mediators in Renal Intensive Care (RIC) /sepsis .
- the sieving coefficient for IL-6 in presence of whole blood is 0.9-1.0.
- the membrane having the above described three- layer structure also includes a fourth layer, which is the outer surface of the hollow fibre membrane.
- the outer surface has openings of pores in the range of 0.5-3 ⁇ m and the number of said pores are in the range of 10,000 to 150,000 pores/mm 2 , preferably 20,000 to 100,000 pores/mm 2 .
- This fourth layer preferably has a thickness of 1 to 10 ⁇ m.
- the hollow fibre has less tendency to adhere to the hollow fibres adjacent in the bundle due to the high number of pores on the surface.
- the dialysate surrounding the hollow fibres during use has enhanced access to the hollow fibres since they are less inclined to adhere to each other.
- This specific surface on the outside of the hollow fibre is achieved by modifying the spinning polymer solution composition only in the outer section of the hollow fibre membrane wall by penetration of water from a very specific steam/air atmosphere into the first 1-15 ⁇ m of polymer solution layer just before the precipitation from the inside arrives at this layer.
- the manufacturing of the membrane according to the present invention follows a phase inversion process, wherein a polymer or a mixture of polymers is dissolved in a solvent to form a polymer solution.
- the solution is degased and filtered and is thereafter kept at an elevated temperature .
- the polymer solution is extruded through a spinning nozzle (for hollow fibres) or a slit nozzle (for flat film) into a fluid bath containing a nonsolvent for the polymer.
- the nonsolvent replaces the solvent and thus the polymer is precipitated to an inverted solid phase.
- the polymer solution preferably is extruded through an outer ring slit of a nozzle having two concentric openings. Simultaneously a centre fluid is extruded through an inner opening of the nozzle. At the outlet of the spinning nozzle the centre fluid comes in contact with the polymer solution and at this time the precipitation is initialised.
- the precipi- tation process is an exchange of the solvent from the polymer solution with the nonsolvent of the centre fluid. Through this exchange the polymer solution inverses its phase from the fluid into a solid phase. In the solid phase there is built, by the kinetic of the solvent/nonsolvent exchange, the pore structure, i. e. asymmetry and the pore size distribution.
- the process works at a certain temperature which influences the viscosity of the polymer solution.
- the temperature at the spinning nozzle and of the polymer solution and centre fluid is 30-80°C.
- the viscosity determines the kinetic of the pore forming process through the exchange of solvent with nonsolvent.
- the membrane is preferably washed and dried.
- the hydrophobic and hydrophilic polymers are "frozen” in such a way that a certain amount of hydrophilic end groups are located at the surface of the pores and create hydrophilic domains.
- the hydrophobic polymer builds other domains.
- a certain amount of hydrophilic domains at the pore surface area are needed to avoid adsorption of proteins.
- the size of the hydrophilic domains should preferably be within the range of 20-50 nm.
- the hydrophilic domains also need to be within a certain distance from each other.
- the polymer solution preferably comprises 10-20 weight% of hydrophobic polymer and 2-11 weight% of hydro- philic polymer.
- the centre fluid comprises 45-60 weight% of precipitation medium, chosen from the group of water, glycerol and other alcohols, and 40-55 weight% of solvent. In other words, the centre fluid does not comprise any hydrophilic polymer.
- the polymer solution coming out through the outer slit openings is, on the outside of the precipitating fibre, exposed to a humid steam/air mixture.
- the humid steam/air mixture has a temperature of at least 15°C, more preferably at least 30°C, and not more than 75°C, more preferably not more than 60°C.
- the relative humidity in the humid steam/air mixture is between 60 and 100%
- the humid steam in the outer atmosphere surrounding the polymer solution emerging through the outer slit openings preferably includes a solvent.
- the solvent content in the humid steam/air mixture is preferably between 0,5 and 5 weight% related to the water content .
- the effect of the solvent in the temperature controlled steam atmosphere is to control the speed of precipitation of the fibres. If less solvent is employed the outer surface will obtain a more dense surface, and if more solvent is used the outer surface will be more open structure.
- the size of the openings of the pores are in the range of 0.5-3 ⁇ m and the number of said pores are in the range of 10,000 to 150,000 pores/mm 2 , preferably 2,0,000 to 100,000 pores/mm 2 .
- the fourth layer of the membrane is preferably prepared by this method.
- suitable additives may be mixed into the mixture of the polymer solution.
- the additives are used to form a proper pore structure and optimise therewith the membrane permeability, the hydraulic and diffusive permeability and the sieving properties.
- the additives may be said to work as pore controller.
- the polymer solution contains 0.5-7.5 weight% of a suitable additive, preferably chosen from the group comprising water, glyc- erol and other alcohols.
- the solvent may be chosen from the group comprising, n-methylpyrrolidon (NMP) , di- ethylacetamid (DMAC) , dimethylsulphoxide (DMSO) di- methylformamide (DMF) , butyrolactone and mixtures of said solvents .
- the conditions on the outside of the membrane and the combination with the polymer composition, centre fluid and temperature of the spinning nozzle creates the optimal structure in a membrane according to the invention, i. e. four integral layers. Depending on the ratio of the components the four layers get different thickness .
- a polymer solution is prepared by mixing 14 weight% of polyarylethersulfone, 0.5 weight% of polyamide, 8 weight% of PVP K30, 2 weight% of water and 75.5 weight% of NMP.
- a mixture of 52 weight% water and 48 weight% NMP serves as a centre and precipitation solution.
- the viscosity of the polymer solution, measured at a temperature of 22 °C is 4,5 Pas.
- the centre and polymer solution are heated to 57 °C and pumped towards a 2 -component hollow fibre spinneret.
- the polymer solution emerges from the spinneret through an annular slit with an outer diameter of 0.5 mm and an inner diameter of 0.35 mm.
- the centre solution emerges from the spinneret in the centre of the annular polymer solution tube in order to start the precipitation of the polymer solution from the inside and to determine the inner diameter of the hollow fibre.
- the 2 components enters a space separated from the room atmos- phere.
- This space is called spinning shaft.
- a mixture of steam (100°C) and air (22°C) is injected into the spinning shaft.
- the temperature in the spinning shaft is adjusted by the ratio of steam and air at 52 °C.
- the relative humidity was adjusted to 98 % and the solvent content was controlled to 4.5 % by weight NMP related to water content.
- the length of the spinning shaft is 890 mm.
- the hollow fibre is drawn from top to bottom, from spinneret through the spinning shaft into a water bath in vertical direction.
- the spinning velocity is 15.0 m/min.
- the hollow fibre is subsequently led through a cascade of water bathes and temperatures increasing from 20 to 90 °C.
- the wet hollow fibre membrane leaving the water rinsing bath is dried in a consecutive online drying step.
- the hollow fibre is collected on a spinning wheel in the shape of a bundle.
- the dialyser is potted with polyurethane, ends are cut, on both sides of the dialyser a header is fixed to the housing, the dialyser is rinsed with hot water and dried with air.
- an amount of 19 g of residual water per m 2 effective membrane area is left on the dialyser.
- the filter device contains 1,1 m 2 effective membrane area.
- the polymer solution temperature was 46°C, and the spinning shaft temperature was 42 °C.
- the composition of the centre solution was changed to: 60% water and 40% NMP.
- the polymer solution temperature was 53°C
- spinning shaft temperature was 48°C.
- Lp Hydraulic permeability of water (10 ⁇ 4 cm/s/bar) .
- the membranes according to the invention could be used for diffusive high cut-off renal replacement therapy as an effective strategy to achieve good cytokine clearance while minimizing protein loss.
- CWHD continous venovenous hemodialysis
- SLED slow efficient dialysis
- IHD intermittent hemodialysis
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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EP10179928A EP2281625A1 (de) | 2002-12-20 | 2003-12-18 | Permselektive, asymmetrische Hohlfasermembran zur Behandlung von Sepsis |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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SE0203855 | 2002-12-20 | ||
SE0203855A SE0203855L (sv) | 2002-12-20 | 2002-12-20 | Permselektivt membran |
PCT/SE2003/001993 WO2004056460A1 (en) | 2002-12-20 | 2003-12-18 | Perm selective asymmetric hollow fibre membrane for the separation of toxic mediators from blood |
Related Child Applications (1)
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EP10179928.6 Division-Into | 2010-09-27 |
Publications (2)
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EP1572330A1 true EP1572330A1 (de) | 2005-09-14 |
EP1572330B1 EP1572330B1 (de) | 2010-11-03 |
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EP10179928A Withdrawn EP2281625A1 (de) | 2002-12-20 | 2003-12-18 | Permselektive, asymmetrische Hohlfasermembran zur Behandlung von Sepsis |
EP03781225A Expired - Lifetime EP1572330B1 (de) | 2002-12-20 | 2003-12-18 | Permselektive, asymmetrische hohlfasermembran zur trennung von toxischen mediatoren vom blut |
Family Applications Before (1)
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EP10179928A Withdrawn EP2281625A1 (de) | 2002-12-20 | 2003-12-18 | Permselektive, asymmetrische Hohlfasermembran zur Behandlung von Sepsis |
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US (2) | US8136675B2 (de) |
EP (2) | EP2281625A1 (de) |
AT (2) | ATE486623T1 (de) |
AU (1) | AU2003288847A1 (de) |
DE (2) | DE60334838D1 (de) |
ES (1) | ES2355721T3 (de) |
SE (1) | SE0203855L (de) |
WO (1) | WO2004056460A1 (de) |
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KR100602429B1 (ko) | 1999-12-29 | 2006-07-20 | 주식회사 코오롱 | 폴리설폰계 중공사막 및 그의 제조방법 |
US6802820B1 (en) * | 2000-04-13 | 2004-10-12 | Transvivo, Inc. | Specialized hollow fiber membranes for in-vivo plasmapheresis and ultrafiltration |
US6787040B2 (en) * | 2000-05-16 | 2004-09-07 | Immunocept, L.L.C. | Method and system for colloid exchange therapy |
CN1232338C (zh) * | 2001-04-18 | 2005-12-21 | 旭医学株式会社 | 非对称多孔膜及其制造方法 |
US6890435B2 (en) * | 2002-01-28 | 2005-05-10 | Koch Membrane Systems | Hollow fiber microfiltration membranes and a method of making these membranes |
SE0203857L (sv) | 2002-12-20 | 2004-06-21 | Gambro Lundia Ab | Permselektivt membran och förfarande för tillverkning därav |
-
2002
- 2002-12-20 SE SE0203855A patent/SE0203855L/xx not_active Application Discontinuation
-
2003
- 2003-12-18 EP EP10179928A patent/EP2281625A1/de not_active Withdrawn
- 2003-12-18 DE DE60334838T patent/DE60334838D1/de not_active Expired - Lifetime
- 2003-12-18 WO PCT/SE2003/001993 patent/WO2004056460A1/en not_active Application Discontinuation
- 2003-12-18 EP EP03781225A patent/EP1572330B1/de not_active Expired - Lifetime
- 2003-12-18 AT AT03781225T patent/ATE486623T1/de active
- 2003-12-18 DE DE20321776U patent/DE20321776U1/de not_active Expired - Lifetime
- 2003-12-18 AU AU2003288847A patent/AU2003288847A1/en not_active Abandoned
- 2003-12-18 US US10/539,409 patent/US8136675B2/en active Active
- 2003-12-18 ES ES03781225T patent/ES2355721T3/es not_active Expired - Lifetime
-
2010
- 2010-07-20 AT AT0045910U patent/AT12003U1/de not_active IP Right Cessation
-
2012
- 2012-02-14 US US13/372,798 patent/US8197745B1/en not_active Expired - Lifetime
Non-Patent Citations (1)
Title |
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See references of WO2004056460A1 * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP3669888A1 (de) | 2018-12-20 | 2020-06-24 | Gambro Lundia AB | Extrakorporale vorrichtungen für verfahren zur behandlung von erkrankungen im zusammenhang mit zytoplasmischen anti-neutrophil-antikörpern |
WO2020127969A1 (en) | 2018-12-20 | 2020-06-25 | Gambro Lundia Ab | Extracorporeal devices for methods for treating diseases associated with anti-neutrophil cytoplasmic antibodies |
WO2020178420A1 (en) | 2019-03-06 | 2020-09-10 | Gambro Lundia Ab | Blood treatment device comprising alkaline phosphatase |
Also Published As
Publication number | Publication date |
---|---|
SE0203855L (sv) | 2004-06-21 |
DE20321776U1 (de) | 2010-02-18 |
WO2004056460A1 (en) | 2004-07-08 |
US8197745B1 (en) | 2012-06-12 |
SE0203855D0 (sv) | 2002-12-20 |
ATE486623T1 (de) | 2010-11-15 |
ES2355721T3 (es) | 2011-03-30 |
US20120145631A1 (en) | 2012-06-14 |
DE60334838D1 (de) | 2010-12-16 |
US8136675B2 (en) | 2012-03-20 |
US20060144782A1 (en) | 2006-07-06 |
EP2281625A1 (de) | 2011-02-09 |
AT12003U1 (de) | 2011-09-15 |
AU2003288847A1 (en) | 2004-07-14 |
EP1572330B1 (de) | 2010-11-03 |
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